This interactive is a graphical introduction to geospatial images from NASA Earth science satellites and encourages exploration of the interconnected nature of Earth’s system by students and the public alike. Explore 25 different Earth images and...(View More) learn key features behind each data set, learn more about the satellite mission that collected the data, and find links to related NASA resources, including multimedia and data. See supplemental links for a link to a poster version of the interactive. The backside of the poster includes information on how and why NASA maps the world, a student section with tools and resources for them to explore and create their own maps, and more.(View Less)

This 16-page booklet illustrates multiple NASA sources that allow educators to incorporate real Earth science data and images in their teaching and programs. Sample resources as well as firsthand accounts of how these are being used in the classroom...(View More) or informal education setting are included.(View Less)

This worksheet introduces students to the Aura satellite and its Ozone Monitoring Instrument (OMI). Students are asked to visit the Aura website and examine OMI data visualizations to learn about emissions of atmospheric gases such as sulfur...(View More) dioxide, nitrogen oxide and nitrogen dioxide. Students gain experience interpreting OMI data visualizations and are asked to consider implications for climate and human health.(View Less)

This program uses NASA data and resources to promote authentic classroom research experiences. These two complementary guides lead students through the process of conducting their own inquiry-based research on an Earth-focused topic. In their...(View More) guidebook, students read content and answer questions about each step in the research process- from formulating a question to sharing results. The separate guide for teachers provides explicit instructions, lists the standards addressed, and includes additional hints, resources and websites.(View Less)

The emphasis of this lesson is deepening students' understanding of how and why we measure precipitation across the globe. Students will look at NASA Tropical Rainfall Measuring Mission (TRMM) data gathered during hurricanes and how this data can...(View More) prove essential in helping scientists forecast the amount of precipitation. Students will also learn how the Global Precipitation Measurement (GPM) Mission is enabling scientists to collect new information on hurricanes. The lesson uses the 5E instructional sequence.(View Less)

This is an activity about Lunar samples. Learners will see snapshots of the Moon's history and hold an important artifact of American history with a Lunar Sample Disk. Earth rocks and soil of similar types as the lunar samples may be provided and...(View More) explored with hands, eyes, noses, and tools. Please note, checking out a Lunar Sample Disk requires training, a secure storage facility, and a minimum of a 6-week lead time. This activity is part of Explore! Marvel Moon.(View Less)

This Science On a Sphere (SOS) module is designed to help the public better understand the story of water on Mars and how we're learning more about it. It portrays the mystery of what happened to the water on Mars in the context of a detective...(View More) story. NASA's MAVEN mission (Mars Atmosphere and Volatile EvolutoN) will help solve this mystery by studying the Martian atmosphere, how it has changed over time, and how it interacts with the Sun and the solar wind. The module also delves into Mars exploration, featuring past, present, and future Mars missions, and includes an activity comparing images of water-related features on Earth and Mars. It will help people understand that a planet's climate can change over time and how learning more about Mars helps us learn more about Earth and other planets as well. Resources included are: script, SOS playlist and datasets, background and tips for the docent or facilitator, and image comparisons of water-related features on Earth and Mars.(View Less)

This is a lesson about generating hypotheses and testable questions. Learners will use critical thinking and a collaborative approach to pose questions related to the study of Mars and evaluate the quality of their questions. They will explore...(View More) remote-sensing data collected by a camera orbiting Mars - the Thermal Emission Imaging System (THEMIS) and develop a team science question. Students will practice critical thinking skills, use a collaborative approach to this first critical step of the scientific process. Exploring the images of the surface of Mars in Visible (VIS) images, students will come up with a topic of study, their team science question and hypotheses. The lesson models scientific inquiry using the 5E instructional model and includes teacher notes and vocabulary.(View Less)

This is an activity about image comparison. Learners will analyze and compare images taken by the Solar Dynamics Observatory. They will match four magnetic solar images, or magnetograms, to their corresponding extreme ultraviolet, or EUV, light...(View More) images by studying solar features in the images. At the end, they will recognize that areas of high magnetic activity on the Sun correspond to extreme solar activity.(View Less)